Trial to Evaluate Wettability of Liquid Zn with Steel Sheets Containing Si and Mn
スポンサーリンク
概要
- 論文の詳細を見る
Since it has been pointed out that liquid Zn alloy sometimes exhibits non-wetting behavior on high-tensile strength steels usually containing Si and Mn, there have been several studies to improve the wettability of liquid Zn. Although those studies evaluated the wettability qualitatively by observation of the surface of galvanized steels or exfoliation testing of Zn on steel substrates, it is further required to evaluate the wettability of liquid Zn on steels by measuring the contact angle, work of adhesion, spreading velocity etc. which are usually used to assess the general wetting behavior. In the present work, we applied a sessile drop method to measure the change in contact angle and diameter of liquid Zn droplets wetted on steels containing Si and Mn with time to evaluate quantitatively the dynamic wetting behavior of liquid Zn on steel substrates.
- 社団法人 日本鉄鋼協会の論文
- 2008-09-15
著者
-
Tanaka Toshihiro
Division of Materials and Manufacturing Science, Graduate School of Engineering, Osaka University
-
Lee Joonho
Division of Materials Science and Engineering, Korea University
-
Lee Joonho
Department Of Materials Science And Engineering Korea University
-
Lee Joonho
Department Of Materials Engineering And Processing Osaka University
-
TAKADA Yoshihisa
Osaka University
-
SHIMADA Shunsuke
Osaka University
-
SHIMADA Shunsuke
Division of Materials and Manufacturing Science, Graduate School of Engineering, Osaka University
-
Tanaka Toshihiro
Graduate School Of Engineering Osaka University
-
Tanaka Toshihiro
Division Of Materials And Manufacturing Science Osaka University
-
Lee Joonho
Div. Of Materials Sci. And Engineering Korea Univ.
-
Tanaka Toshihiro
Division Of Materials And Manufacturing Science Graduate School Of Engineering Osaka University
-
Tanaka Toshihiro
Division Of Cardiology Sakakibara Heart Institute
-
Tanaka Toshihiro
Graduate School of Engineering, Osaka University
関連論文
- Trial on the Application of Capillary Phenomenon of Solid CaO to Desulfurization of Liquid Fe
- ACR4, a Putative Receptor Kinase Gene of Arabidopsis thaliana, that is Expressed in the Outer Cell Layers of Embryos and Plants, is Involved in Proper Embryogenesis
- INTRACORONARY ULTRASOUND ASSESSMENT OF CORONARY STENTS
- EARLY EXPERIENCE WITH THE STRECKER CORONARY STENT
- Investigation of the Dynamic Reactive Wetting of Sn-Ag-Cu Solder Alloys on Ni(P)/Au Coated Cu Substrates
- Prediction of Phase Separation in Silicate Glass for the Creation of Value-added Materials from Waste Slag
- Evaluation of Viscosity of Mold Flux by Using Neural Network Computation
- Interfacial Kinetics of Nitrogen with Molten Iron Containing Sulfur
- Dynamic Interfacial Phenomena between Gas, Liquid Iron and Solid CaO during Desulfurization
- Effect of Surface Orientation of Alumina Single Crystals on the Interfacial Tension between Molten Iron and Solid Alumina under Different Oxygen Partial Pressures
- Characterization of Fibrous Particles in Blast Furnace Slag Quenched by Water-spray
- Equilibrium Phase Relationship between SiC and a Liquid Phase in the Fe-Si-C System at 1523-1723K
- Akaike's information criterion for a measure of linkage disequilibrium
- Thermodynamics of Surface Tension of Molten Salt Mixtures (特集 New Trends in Molten Salt Chemistry and Electrochemistry)
- Simple removal of dioxins by injecting combustion gas into water
- REPERFUSION PHENOMENON DURING CORONARY THROMBOLYTIC THERAPY(CT) : Coronary Thrombolysis : 53 Annual Scientific Meeting, Japanese Circulation Society
- Unusual Wetting of Liquid Metals on Iron Substrate with Oxidized Surface in Reduced Atmosphere
- Oxygen Adsorption Behavior on the Surface of Liquid Cu-Ag Alloys
- Effect of Oxygen on Surface Tension of Liquid Ag-Sn Alloys
- Unusual Wetting of Liquid Bismuth on a Surface-Porous Copper Substrate Fabricated by Oxidation-Reduction Process
- Application of Hydrothermal Treatment on BF Slag and Waste Glass for Preparing Lubricant Materials in High Strain Rolling for Ultrafine-grained Steel Production
- Fabrication of Low Temperature Foaming Glass Materials Using Hydrothermal Treatment
- The Effect of Si and Mn Content on Dynamic Wetting of Steel with Liquid Zn
- Trial to Evaluate Wettability of Liquid Zn with Steel Sheets Containing Si and Mn
- Effect of Microwave Irradiation on Hydrothermal Treatment of Blast Furnace Slag
- Design of Swirling Flow Submerged Entry Nozzles for Optimal Head Consumption between Tundish and Mold
- Preparation of Porous Ceramics by the Hydrothermal Reaction of Blast Furnace Slag for Use in a Water-retentive Material
- MgO Effect on Hydrothermal Solidification of Blast Furnace Slag
- Interfacial Phenomena Between Gas, Liquid Iron and Sold Lime During Desulfurization
- Determination of Macro-Contact Angle and Line Tension at High Temperatures for Au/Al_2O_3 System at 1373K Using a Micro-Scale Wetting Method
- Development of Swirling-flow Submerged Entry Nozzles for Slab Casting
- Rate Enhancement of the Degassing Reaction by the Enlargement of RH and DH Reactors
- Evaluation of Viscosity of Molten SiO_2-CaO-MgO-Al_2O_3 Slags in Blast Furnace Operation
- Reduction Behavior of FeO Compact Including Molten Slag
- Evaluation of Surface Tension of Molten Slag in Multi-component Systems
- Use of Slag Containing Water as a Lubricant in High Straining Rolling for Ultrafine-grained Steels
- Estimation of Surface Tension of Molten Silicates Using Neural Network Computation
- Evaluation of the Surface Tension of Ternary Silicate Melts Containing Al_2O_3, CaO, FeO, MgO or MnO
- Surface Tension of Liquid Fe-Ti Alloys at 1 823K
- A Model for Estimation of Viscosity of Molten Silicate Slag
- Improvements in Surface Tension Measurements of Liquid Metals Having Low Capillary Constants by the Constrained Drop Method
- Trial on the Application of Capillary Phenomenon of Solid CaO to Desulfurization of Liquid Fe
- Preparation and Thermal Analysis of Sn-Ag Nano Solders
- Effect of Structure on the Viscosity of Silicate Melts
- Evaluation of Surface Tension of Molten Ionic Mixtures
- Surface Tension and its Temperature Coefficient of Liquid Sn-X (X=Ag, Cu) Alloys
- Distribution and Coordination State of Titanium Oxides in Microstructures Formed by Spinodal Decomposition in Multicomponent Borosilicate Glass
- A Model for Estimating the Viscosity of Molten Aluminosilicate Containing Calcium Fluoride
- A Model for Estimating Viscosities of Aluminosilicate Melts Containing Alkali Oxides
- Surface Tension Evaluation of Molten Silicates Containing Surface-active Components (B_2O_3, CaF_3 or Na_2O)
- Materials Design for the Fabrication of Porous Glass using Phase Separation in Multi-component Borosilicate Glass
- Composition Dependence of Microstructures formed by Phase Separation in Multi-component Silicate Glass
- Sulphide Capacity Prediction of Molten Slags by Using a Neural Network Approach
- CLINICAL AND ELECTROPHYSIOLOGIC CHARACTERISTICS OF LIFE-THRETENING VENTRICULAR TACHYARRHYTHMIAS OCCURRING DURING TREADMILL EXERCISE TESTING : Exercise Test, Rehabilitation : 53 Annual Scientific Meeting, Japanese Circulation Society
- Recovery of Fe and P from CaO-SiO_2-Fe_tO-P_2O_5 Slag by Microwave Treatment
- Effects of Porous Surface Layer on Lubrication Evaluated by Ring Compression Friction Test
- Light Absorption by Metals with Porous Surface Layer Formed by Oxidization-Reduction Treatment
- Density Measurements of CaO–MnO–SiO2 Slags
- Distribution and Coordination State of Titanium Oxides in Microstructures Formed by Spinodal Decomposition in Multicomponent Borosilicate Glass
- Composition Dependence of Viscosity in Binary Silicate Melts Using Double Exponential Function